Use of Nanotechnology materials and techniques to upgrade the external finishing of buildings to achieve the quality of their internal environment (Applied study on an administrative building) استخدام مواد وتقنيات النانو لرفع كفاءة التشطيبات الخارجية للمباني لتحقيق جودة بيئتها الداخلية

Mahmoud, Marwa Emad

doi:10.21608/jesaun.2023.203121.1216

Use of Nanotechnology materials and techniques to upgrade the external finishing of buildings to achieve the quality of their internal environment (Applied study on an administrative building) استخدام مواد وتقنيات النانو لرفع كفاءة التشطيبات الخارجية للمباني لتحقيق جودة بيئتها الداخلية

Document Type : Research Paper

Author

Marwa Emad Mahmoud

New cairo academy- the higher Institute of Engineering-5th settlement

10.21608/jesaun.2023.203121.1216

Abstract

Nanotechnology applications have created a comprehensive change in all lifestyles, which in turn revolutionized the field of construction materials and architectural finishes in general, and facades in particular, because facades are no longer just a secondary outer shell for the building, but rather have become one of the most important tools for the architect to express his ideas. Nanotechnology is to reach a better level of performance inside and outside the building, and despite the widespread application of nanotechnology materials in many developed countries; it has not reached the required level in the Egyptian local market, and herein lies the research problem. The importance of the research is summarized in highlighting the importance of using Nano materials in finishing facades, especially administrative buildings, coinciding with the establishment of the new administrative capital to include many administrative buildings, as well as the state’s orientation towards sustainability through Egypt’s vision 2030 to achieve a balance in the state’s resources between the present and the future, so we can use nanotechnology materials that We avoid the drawbacks of traditional building materials and finishes or improve their performance. The research aims to use Nano materials because they have a significant impact in the field of external finishes, so they can achieve the highest efficiency in finishing facades, in addition to reducing maintenance costs, rationalizing energy consumption, achieving environmental sustainability, and achieving the quality of the internal environment for users. To reach the above, the research is divided into two parts. The first part follows the inductive approach and contains concepts about nanotechnology and materials and their applications in architecture and the extent of the impact and employment of Nano materials in finishing the external facades of buildings, and their capabilities in transforming the function of finishing materials into other functions that serve considerations of cost, maintenance and environmental sustainability, as well as addressing the concepts of internal environmental quality and linking it to materials Finishing using nanotechnology. As for the second part, it follows the analytical and comparative analytical approach and contains an extract of the most important results of the use of Nano materials techniques in the external facades of buildings through monitoring and documenting some modern projects globally in which different Nano materials were used in finishing their facades to determine the impact of their use in the facades of those buildings. An existing administrative building with traditional finishing materials to make a comparative analysis between the efficiency of the facade elements of this building currently and their efficiency if they were replaced with nanotechnology materials to reach the research result and then the results and recommendations.

أوجدت تطبيقات تقنية النانو تغييرا شاملا في جميع أنماط الحياة والتي بدورها أحدثت ثورة في مجال مواد الإنشاء والتشطيبات المعمارية بشكل عام والواجهات بشكل خاص ، وعلى الرغم من انتشار تطبيق مواد تقنية النانو في العديد من البلدان المتقدمة إلا أنها لم تصل إلى المستوى المطلوب في السوق المحلي المصري وهنا تكمن إشكالية البحث، وتتلخص أهمية البحث في إبراز أهمية استخدام مواد النانو في تشطيب الواجهات وخاصة المباني الإدارية وذلك تزامنا مع إنشاء العاصمة الإدارية الجديدة لشمولها العديد من المباني الإدارية وكذلك لتوجه الدولة نحو الاستدامة من خلال رؤية مصر2030 لتحقيق التوازن في موارد الدولة بين الحاضر والمستقبل، فيمكننا استخدام مواد تقنية النانو التي تجنبنا سلبيات مواد البناء والتشطيبات التقليدية أو تطور من أدائها، ويهدف البحث إلى أن استخدام مواد النانو يحقق أعلى كفاءة في تشطيب الواجهات الخارجية للمبنى بالإضافة إلى خفض تكاليف الصيانة وترشيد استهلاك الطاقة وتحقيق الاستدامة البيئية وتحقيق جودة البيئة الداخلية للمستخدمين.
وللوصول إلى ما سبق ينقسم البحث إلى جزئين الجزء الأول يتبع المنهج الاستقرائي ويحتوي على مفاهيم عن تقنية ومواد النانو وتطبيقاتها في العمارة ومدى تأثير وتوظيف مواد النانو في تشطيب الواجهات الخارجية للمباني، أما الجزء الثاني فيتبع المنهج التحليلي والتحليلي المقارن ويحتوي على استخلاص لأهم النتائج لاستخدام تقنيات مواد النانو في الواجهات الخارجية للمباني للوقوف على تأثير استخدامها في واجهات تلك المباني، ومن ثم تم اختيار مبنى إداري قائم فعلا بمواد تشطيب تقليدية لعمل تحليل مقارن بين كفاءة عناصر واجهة هذا المبنى حاليا وبين كفاءتها لو تم استبدالها بمواد تقنية النانو للوصول إلى النتيجة البحثية ثم النتائج والتوصيات.

Keywords

Main Subjects

Architecture Engineering and the Engineering Architectural Interior Design.

References

]1 [Raki, l., Beaudoin, J., Alizadeh, R., Maker, J., & Sato, T. (2010, February 3). Cement and Concrete Nano Science and Nano Technology. Material, Volume 3 Issue (2 ), 34.

]2 [Elvin, G. (2007, MAY 20). Building Green with Nanotechnology. TechConnect Briefs, 4, 683-686.

]3 [Glezer, A. M. (2011, August 17). Structural Classification of Nanomaterials. (P. F. Plasticity, Ed.) Russian Metallurgy (Metally), 263-269.

]4 [Teizer, J., Venugopal, M., Winfried, T., & Felkl, J. (2012, May 1). Nanotechnology and Its Impact on Construction: Bridging the Gap between Researchers and Industry Professionals. Engineering Journal of Construction Engineering and Management-asce.

]5 [Lazaro, A., & Brouwers, H. (2010). Nano-silica production by a Sustainable Process; Application In Building Materials. 8th fib International - PhD Symposium in Civil Engineering. Denmark.

]6[ Leydecker, S. (2010). Nano Materials in Architecture, Interior Architecture and Design. Boston, Berlin.

]7[ Nano-SIO2 Silica Nanopowder/Nanoparticles Solution. (n.d.). Retrieved January 15, 2023, from Xuan Cheng Jing Rui New Material Co.,Ltd: https://jingruinm.en.ec21.com/Nano_SIO2_Silica_Nanopowder_Nanoparticles--4314162_4338995.html.

]8 [Sanchez, F., & Sobolev, K. (2010, November). Nanotechnology in Concrete—A Review. Construction and Building Materials. Construction and Building Materials, 24(11), 2060-2071.

]9 [Mujkanović, A., Bečirhodžić, D., & Merdić, N. (2016). SELF-CLEANING CONCRETE – A Construction Material For Bulding Cleaner World.

]10[ B, A., Kumar, D., M, B., & B.L.P., S. (2013, MAY). Concrete Composites With Nano Silica, Condensed Silica Fume And Fly Ash – Study of Strength Properties. International Journal Of Scientific & Engineering Research, 4(5).

]11 [ ALTAIR. (n.d.). Retrieved December 20, 2023, from Thermal Mechanical Technical Background: https://www.efatigue.com/hightemp/background/tmf.html.

]12[ Sev, A., & Ezel, M. (2014, July 4). Nanotechnology Innovations for the Sustainable Buildings of the Future.

]13[ The constructor Building ideas. (n.d.). Retrieved February 10, 2022, from The construction Encylopedia: https://theconstructor.org/building/nanomaterials-in-construction-applications/5638/

]14[ Schodek, D., Ferreira, P., & Ashby, M. (1st Edition 2009). Nanomaterials, Nanotechnologies and Design. Elsevier .

]17[ DHGATE. (n.d.). Retrieved MARCH 5, 2023, from witchable glass and PDLC film: https://ie.dhgate.com/product/switchable-glass-and-pdlc-film-smart-film/401479864.html

]18[ Cestari, C. B., Invernizzi, S., & Tulliani, J. M. (January 2010). Nanotechnologies / smart-materials in timber constructions belonging to cultural heritage. Politecnico di Torino.

]20[ Jelle, B. P., Gustavsenc, A., Baetens, R., & Grynning, S. (2010, January 26-27). Nano Insulation Materials Applied in the Buildings of Tomorrow. Retrieved February 5, 2023, from COIN workshop on Concrete Ideas for Passive Houses.

]21[ Moga, L., & Bucui, A. (2017). Nano insulation materials for application in nZEB. 11th International Conference Interdisciplinarity in Engineering (p. 311). Romania: ScienceDirect.

]22[ Polycrystalline Silicon Solar Cell. (n.d.). Retrieved March 10, 2023, from https://www.suratexim.co.in/polycrystalline-silicon-solar-cell-2586780.html

]23[ Abdel-Latif, I. A.-L. (2018). Perovskite Strontium Doped Rare Earth Manganites Nanocomposites and Their Photocatalytic Performances. Intechopen.

]24[ Titanium dioxide (TiO2) in architecture. ( 2022, Jan 2). Retrieved February 25, 2023, from https://www.shqipark.com/post/dioksidi-i-titaniumit-tio2-n%C3%AB-arkitektur%C3%AB

]25 [CeramicPlus from Villeroy & Boch, the ceramic with advantages. (2017, September 26). Retrieved Novamber 12, 2023, from Decoration and Interior Design: https://www.interempresas.net/Decoracion-interiorismo/Articulos/196195-CeramicPlus-de-Villeroy-Boch-la-ceramica-con-ventajas.html

]26[ Permanent anti-fog windshield nanocoating for enhanced driver vision. ( 2019, November 14). Retrieved March 4, 2023, from domus-project: https://www.domus-project.eu/permanent-anti-fog-windshield-nanocoating-for-enhanced-driver-vision/

]27 [Mike & Ophelia Lazaridis Quantum-Nano Centre / KPMB Architects. (n.d.). Retrieved January 14, 2023, from archdaily: https://www.archdaily.com/452205/mike-and-ophelia-lazaridis-quantum-nano-centre-kpmb-architect

]28[ Church of 2000 / Richard Meier & Partners. (n.d.). Retrieved January 14, 2023, from ArchDaily: https://www.archdaily.com/20105/church-of-2000-richard-meier

]29 [32–36 Edgewood Avenue. (n.d.). Retrieved January 14, 2023, from sustainability: https://sustainability.yale.edu/sites/default/files/edgewood_4.pdf

]30[ Sculpture Building and School of Art Gallery. (n.d.). Retrieved January 15, 2023, from kierantimberlake: https://kierantimberlake.com/page/sculpture-building-and-school-of-art-gallery

]31 [Ercolani, E. (n.d.). Materials Science and Technology. Retrieved January 14, 2023, from Nano Materials for Architecture: https://didattica.uniroma2.it/files/scarica/insegnamento/144459-Tecnologia-Dei-Materiali-E-Chimica-Applicata/12238-Nanotecnologie-per-Edilizia

]32[ Ara Pacis Museum / Richard Meier & Partners. (n.d.). Retrieved January 16, 2023, from ArchDaily: https://www.archdaily.com/104187/ara-pacis-museum-richard-meier-partners

]33[ U.S. Green Building Council. (n.d.). Retrieved February 20, 2023, from Transforming buildings and communities through LEED: https://www.usgbc.org/

المراجع العربية

[15] الزعفراني, ع. م., & فكري, أ. أ. (2006). الزجاج ذو النفاذية الاختيارية للإشعاع الشمسى مدخل للتصميم البيئى للفتحات الخارجية فى المبانى. مؤتمر قسم الهندسة المعمارية, p. 10.

[16] حسين جمعة. (2009). النانو تكنولوجى فى التشييد والبناء. القاهرة: مكتب الدراسات والاستشارات الهندسية.

[19] مستقبل المباني المستدامة في ظل تكنولوجيا النانو. تاريخ الاسترداد12 MARCH, 2023 ، من INTERBUILD TODAY: https://ibtoday.expertsudan.com/2019/04/29/nano-technology-2

[34] عادل يس، جورج باسيلي، مراد عبد القادر، و وآخرون. (1998). دليل العمارة والطاقة. القاهرة: جهاز التخطيط والطاقة.